Advanced separation materials are key in the development of more efficient membranes, adsorbents, catalysts and storage media. Their unique structure to properties relationships rule their performance and long term stability. This Research Topic will aim at gathering resources in the area of liquid and gas separation primarily, with a strong focus on the water/energy/food nexus. Contributions related to advanced materials performance, novel processing strategies and clever characterization techniques will be considered as landmarks for the topic.
This Research Topic will primarily deal with (i) the design of porous materials and with the control of pore morphology, geometry and distribution, as well as with (ii) tailorable surface chemistries for enhanced, facilitated or controlled interactions at the molecular level with resources or contaminants in solutions. Among the different technological areas of interests, separation (filtration membranes, electrodialysis, distillation), capture (capacitive deionisation, surface diffusion, surface adsorption, bulk diffusion, surface coordination and precipitation), and selective catalysis towards advanced reactor designs. The range of materials of interest spans from carbon, metal and metal oxides, polymers and associated meta and composite materials. Multi-disciplinary studies, involving molecular dynamics and physical experimental data sets will be particularly welcome.
Advanced separation materials are key in the development of more efficient membranes, adsorbents, catalysts and storage media. Their unique structure to properties relationships rule their performance and long term stability. This Research Topic will aim at gathering resources in the area of liquid and gas separation primarily, with a strong focus on the water/energy/food nexus. Contributions related to advanced materials performance, novel processing strategies and clever characterization techniques will be considered as landmarks for the topic.
This Research Topic will primarily deal with (i) the design of porous materials and with the control of pore morphology, geometry and distribution, as well as with (ii) tailorable surface chemistries for enhanced, facilitated or controlled interactions at the molecular level with resources or contaminants in solutions. Among the different technological areas of interests, separation (filtration membranes, electrodialysis, distillation), capture (capacitive deionisation, surface diffusion, surface adsorption, bulk diffusion, surface coordination and precipitation), and selective catalysis towards advanced reactor designs. The range of materials of interest spans from carbon, metal and metal oxides, polymers and associated meta and composite materials. Multi-disciplinary studies, involving molecular dynamics and physical experimental data sets will be particularly welcome.